Definition of active site
Indented area of surface of enzyme with a shape that's complementary to the shape of a substrate molecule
Definition of catalyst
Chemical that speeds up rate of reaction and remains unchanged and resusable at end of reaction
Definition of extracellular
Outside the cell
Definition of intercellular
Inside the cell
Definition of metabolic/metabolism
Chemical reactions that take place inside living cells or organisms
Definition of product
Molecule produced from substrate molecules, by an enzyme-catalysed reaction
Definition of substrate
Molecule that's altered by an enzyme-catalysed reaction
Definition of cofactor
Substance that must be present to ensure that an enzyme-catalysed reaction takes place at the appropriate rate. Some (prosthetic groups) are part of enzyme structure, others (mineral cofactors and organic coenzymes) form temporary associations with the enzyme
Which cofactors are part of enzyme structure?
Prosthetic groups
Which cofactors form temporary associations with the enzyme?
Mineral ion cofactors and organic coenzymes
Definition of enzyme-substrate complex
Complex formed from temporarily binding of enzyme and substrate molecules during enzyme-catalysed reaction
What's a holoenzyme?
An apoenzyme with it's cofactor. It's complete and catalytically active
What's an apoenzyme?
Inactive enzyme, activation occurs upon binding of an organic or inorganic cofactor
Definition of enzyme-product complex
Enzyme molecule with product molecule in it's active site. The two are joined temporarily by non-covalent forces
Definition of ESC
Enzyme molecule with substrate molecule in it's active site. The two are joined by non-covalent forces
Definition of Q10
Temp coefficient, calculated by dividing rate of reaction at (T+10)°C by the rate of reaction at 7°C
Definition of concentration
Number of molecules per unit volume
Definition of competitive inhibition
Inhibition of an enzyme where inhibitor molecule has a similar shape to that of the substrate molecule and competes with the substrate for the enzymes active site. It blocks the active site and prevents formation of ESC's
Definition of inhibitor
Substance that reduces or stops a reaction
Definition of non-competitive inhibition
Inhibition of an enzyme, where the competitor molecule attaches to a part of the enzyme molecule but now the active site. This changes the active sites shape, preventing ESC's forming, as enzymes active site is no longer complementary to substrate molecule
How does bread go mouldy?
Fungi (muccr on bread) releases hydrolytic enzymes and hyphae. Enzymes digest carbs, proteins and lipids in bread and products of digestion (glucose, amino acids, glycerol fatty acids) absorbed into fungal hyphae for respiration and growth
Where is amylase produced?
Salivary glands and pancreas
What does amylase do in mouth?
Digests polysaccharide starch into disaccharide maltose
What does amylase do in the pancreas?
Catalyses reaction of polysaccharide starch into disaccharide maltose in lumina small intestine
Where is trypsin made?
Pancreas
What does trypsin do?
Acts lumen of small intestine to digest proteins into smaller peptides by hydrolysis of peptide bonds
What's the optimum pH of trypsin?
Between 7.5 and 8.5
Where are many enzymes secreted from in the digestive system?
Cells lining alimentary canal into the gut lumen
What do enzymes in the digestive system do?
Extracellularly digest large molecules e.g carbs, proteins, lipids and nucleic acids from foods
What happens to the products of digestion?
The absorbed via epithelial cells in gut wall into bloodstream to be used for respiration, growth and tissue repair
What are NAD and NADP and what are they derivatives of?
Hydrogen acceptors
Derivatives of nucleotides
What coenzyme is derived from vitamin b12
Cobalamin coenzymes
What's the human deficiency of B12?
Pernicious anaemia
What coenzyme is derived from folic acid?
Tetrahydrofolate
What's the human deficiency of folic acid?
Megablastic anaemia
What coenzyme is derived from nicotinamide?
NAD and NADP
Nicotinamide
B3
What's the human deficiency of B3?
Pellagra
What coenzyme is derived from pantothenoate?
Coenzyme A
Pantothenoate
B6
What's the human deficiency of B6?
Elevated blood-plasma triglyceride levels
Thiamine
B1
What coenzyme is derived from thiamine?
Thiamine pyrophosphate
What's the human deficiency of B1?
Benben
What are coenzymes?
Small organic non-protein molecules that bind temporarily to the active site of enzymes either just before or at the same time the substrate binds
What happens to coenzymes during a reaction?
They are chemically changed
What must happen to coenzymes after a reaction?
Need to be recycled to their original state
What happens if vitamins are deficient?
Causes disease
Where are most coenzymes derived from?
Water soluble vitamins
What does enzyme amylase digest?
Starch to maltose
When only will amylase function?
If chloride ions are present
How can certain ions act as cofactors?
May temporarily bind to substrate or enzyme to ease formation of ESC, increasing rate of reaction
Some cofactors act as…
Co-substrates
How do some cofactors act as co-substrates?
They and the substrate form the correct shape to bind to the active site
What do some cofactors change?
The charge distribution on the surface of the substrate or enzymes active site
What are prosthetic groups?
Cofactor that's permanently bound, by covalent bonds, to an enzyme molecule
What's the prosthetic group for enzyme carbonic anhydrase?
Zinc ion
Where is carbonic anhydrase found and what does it do?
Erythrocytes
Catalyses the interconversion of CO2 and H2O to carbonic acid which then breaks down to H+ and HCO3 -
Why is the reaction, catalysed by carbonic anhydrase important?
Enables CO2 to be carried in blood from respiring tissues to lungs
Rate of reaction=
1/time taken to reach end point
Describe the graph
Between A and B, increasing temp increases rate of reaction due to increased KE
Increasing temp beyond optimum (B), temp reduces rate due to breaking of hydrogen bonds holding enzymes tertiary structure in place
At C, no reaction as enzyme is denatured
What does temperature coefficient refer to?
Increase in rate of a process when temp is increased by 10°C
Temp coefficient
Q10
Q10 ≈
2
What does Q10 ≈ 2 mean?
For every 10°C rise in temp, rate is doubled
For metabolic reactions catalyzed by enzymes, between 0 and 40°C…
Rate is doubled by every 10°C rise in temp
Why is rate doubled for every 10°C rise in temp?
Rise in temp provides more KE so enzyme and substrate molecules move faster and collide more often
For enzymes at temps above optimum temp…
Q10 drops
Why does Q10 drop for enzymes at temps above optimum?
Because higher temps alter the structure of the active site of the enzyme molecules so no longer complementary to shape of substrate molecules
Q10 =
Rate of reaction at (T+10)°C / rate of reaction at T°C
What's optimum temperature?
Temperature at which enzymes work best and has max rate of reaction
When do enzymes have high optimum temperatures?
When contain more disulfide bonds that don't break with heat and keep shape of protein molecule stable
What happens when a substance is heated?
Extra energy in form of heat, causes molecules to move faster
Increases rate of collisions between molecules
Increases force with which they collide, as they're moving faster
What happens if a reactant mixture containing enzyme and substrate molecules is heated?
Both types of molecules will gain KE and move faster
Will increase rate of successful collisions
Rate of formation of ESC'S increases and ROR increases, increasing number of EPCs per second, up to a point
ROR reaches max at optimum temp
Does heat break peptide bonds?
No
Why isn't primary structure of proteins affected when heated?
Heat doesn't break peptide bonds between amino acids
What does heat make molecules do?
Vibrate
What happens when molecules vibrate?
Brakes some of the weak bonds that hold tertiary structure of the active site
Active site shape begins to change substrate molecules don't fit so well rate of reaction starts to decrease
As more heat is applied shape of active site completely and irreversibly changes and no longer complementary to fit substrate
Reaction can't proceed
Enzyme is denatured
What is PH?
The measure of hydrogen ion concentration
What does pH indicate?
Whether substances acidic alkaline or neutral
Acidic
0-6
Neutral
7
Alkaline
8-14
What do acids dissociate into?
Protons and a negatively charged ion
Organic acids are also…
Proton donors
What does lactic acid dissociate into?
H+ and lacate
What does pyruvic acid dissociate into?
H+ and pyruvate
What do buffers resist?
Changes in pH
Where can buffers be found in the body and what do they do?
Chemicals in the blood can help resist changes in pH so blood pH remains close to 7.4
Explain how changes in pH affect bonds within molecules
Hydrogen ions have a positive charge so attracted towards negatively charged ions or molecules
Excess hydrogen ions interfere with hydrogen bonds and ionic forces active site will change shape. If substrate doesn't fit well rate will decrease
Increasing concentration of hydrogen ions will alter charges on active site of enzyme has more protons will cluster around negatively charged groups in active site. Interferes with binding of substrate on to active site
What enzymes don't have a pH of 7?
Extracellular enzymes
What pH does amylase work best at?
6.8
Enzymes work within…
Narrow range of pH
What happens if there a small changes in pH either side of optimum pH?
It will slow the races shape of active site is disrupted
What happens when optimum pH is restored?
Hydrogen bonds can we form an active site is restored
What happens at extreme pHs?
Active site may be permanently changed. Enzyme is denatured and can't catalyse reactions
What pH does protease work best at?
1-2
Why is there a low ph in the stomach?
HCL is secreted to kill bacteria and pathogens in food
What does protease do?
Digests large protein molecules into smaller peptide molecules
What's the ph in the small intestine?
7.8
What raises the pH in the small intestine?
Bile as it neutralizes the pH of the stomach
Why does the small intestine have a pH of 7.8?
Optimum of protein digesting enzymes that catalyse further digestion of peptides to amino acids
Reducing or increasing pH away from optimum reduces rate as concentration of hydrogen ions in solution affect tertiary structure of enzyme
When touches x axis enzyme is denatured
What happens when no substrate is present?
Enzyme-catalyzed reaction can't happen because there are no substrate molecules to fit active site so no ESC can be formed
What happens as substrate is added?
Concentration increases and rate increases
More ESC can be formed
As a result more product molecules are formed
Substrate concentration is limiting factor because as it increases rate increases
What happens when concentration of substrate increases even further?
Reaction will reach max rate
Adding more substrate to increase of shape concentration won't increase rate as all enzymes active sites are occupied with substrate molecules
More substrate molecules are added can't successfully collide and fit into active site
Between A and B, substrate concentration is limiting factor. Increase substrate concentration leads to increased reaction rate
Between B and C all enzymes present are working at maximum rate. Substrate concentration no longer limiting factor another factor is limiting reaction
In living cells, what's the availability or concentration of enzymes dependant upon?
Rate of synthesis of the enzyme and its rate of degradation (rates directly controlled by cell)
How is enzyme synthesis regulated?
Depending on cells needs, genes for synthesising particular enzymes can be switched on or off
What are the advantages of degradation?
Elimination of abnormally shaped proteins that could accumulate and harm the cell
Regulation of metabolism in cell by eliminating any superfluous enzymes
For a cell to regulate its metabolism properly..
Control of enzyme degradation is equally important as the control of enzyme synthesis
What happens as enzyme concentration increases?
More active sites on an enzyme become available
Most successful collisions between enzyme and substrate occur
More ESC can form per unit time so rats increases
Enzyme concentration is limiting factor - as it increases so does rate
What happens if substrate concentration is fixed or limited?
All substrates will be occupying or will have occupied an active site and been released as products
Reaction is at max rate for fixed substrate concentration
What happens if reaction is at maximum rate for fixed of substrate concentration but there is an increasing enzyme concentration?
If enzyme concentration is increased further, no increase in rate because active site of extra enzyme molecules won't be occupied by substrates
Enzyme concentration no longer limiting factor as enzyme concentration increases rate doesn't increase
Substrate concentration is now limiting factor. Lack of substrate molecules is preventing rate from increasing
Initial rate of reaction gives…
Maximum rate of reaction
Why does initial rate of reaction give maximum rate of reaction?
At beginning of reaction all moving randomly so great chance of substrate molecules successfully colliding with enzymes active site
As reaction proceeds substrates used up as converted to products to concentration of substrate
As result frequency of successful collisions decrease as enzyme to may collide with products reducing rate of reaction
A - enzyme concentration is limiting factor
B - enzyme concentration is no longer limiting factor, substrate concentration is limiting factor
C - is substrate concentration which is now limiting factor is increased then rate increases
D - fixed concentration of substrate
What do inhibitors do?
Reduce enzyme activity by combining with the enzyme molecule in a way that influences how the substrate binds to the enzyme
What are two ways that inhibitors inhibit ESC formation?
Block active site
Change shape of active site
What do competitive inhibitors do?
Fit into active site so the substrate molecule can't enter
More inhibitor molecules =
More inhibitors collide = greater effect of inhibitor
What does the amount of inhibition depend upon?
Relative concentration of substrate and inhibitor molecules
What does increasing substrate concentration do to inhibitors?
Dilute the effect of inhibitor and if enough substrate is added the inhibitor is unlikely to collide with enzyme
Describe what happens when inhibitors are present
Compete directly with substrate on enzymes active site to form an enzyme inhibitor complex thats catalytically inactive
Once on active site inhibitor is unchanged by enzyme
Why are most competitive inhibitors reversible?
Collisions are random
What are competitive inhibitors called if they bind irreversibly?
Inactivators
Which is competitive and which is non competitive?
Green is competitive
Blue is not competitive
What do non competitive inhibitors do?
Attach to enzyme on allosteric site, away from active site, disrupting tertiary structure and changing its shape
More non competitive inhibitors =
Greater degree of inhibition as more enzymes distorted
Why is the maximum rate of reaction reduced by the presence of non competitive inhibitors?
The distortion changes shape of active site so no longer complementary to substrate. Vsc can't form
What does end product inhibition do?
One way in which enzyme catalysed reactions can be regulated
What happens in end product inhibition?
Once catalysed reaction has reached completion, products stay tightly bound to enzyme meaning enzyme can't form more of the product than the cell needs
What's end product inhibition an example of?
Negative feedback
What do multi-enzyme complexes do and why?
Increase efficiency of metabolic reactions without increasing sub conc as keep enzyme and substrate in same vicinity to reduce diffusion time
Where are nucleoside reverse transcriptase inhibitors found?
In many antiviral drugs
What do nucleoside reverse transcriptase inhibitors inhibit?
Enzymes involved in making DNA using the viral RNA as a template
What are ACE inhibitors?
Medical drugs that inhibit the the angiotensin converting enzyme (ACE) which normally operates in a metabolic pathway to increase blood pressure
What are ACE inhibitors used for?
Lower blood pressure in patients with hypertension who can't take beta blockers
Treat heart failure
Minimise risk of second heart attack or stroke in those who have suffered a myocardial infarction
What's an atrial arrhythmia?
Abnormal beat rate of the atria
What do ATPase inhibitors do?
Inhibit the sodium potassium pump in the cell membranes of heart muscle cells no more calcium ions to enter (calcium ions increase muscle contraction to strengthen heartbeat)
Where do ATPase inhibitors come from?
Purple foxglove leaves
What are ATPase inhibitors used to treat?
Heart failure and atrial arrhythmia
What are poisons?
Toxins that are ingested
How to many toxins exert their effects?
Inhibiting or inactivating enzymes
Potassium cyanide
KCN
Why is potassium cyanide highly toxic?
It inhibits aerobic respiration and catalase
What happens when potassium cyanide is ingested?
KCN is hydrolyzed to produce hydrogen cyanide
How does potassium cyanide inhibit aerobic respiration?
KCN is hydrolysed to produce hydrogen cyanide that can readily dissociates into H+ and CN- ions
CN- ions bind irreversibly to an enzyme found in mitochondria and inhibits the final stages of aerobic respiration. As final stage is inhibited earlier stages can't run so aerobic respiration stops
What inhibits AChE?
Chemical in venom of green mamba snake
What’s AChE important for?
Important at neuromuscular synapss to break down neurotransmitter acetycholine
AChE
Acetycholinesterase
What happens if AChE is inhibited?
ACh stays attached to receptors on muscle membranes and keeps muscle contracted
Why does snake venom cause paralysis?
As movement dependent on muscles contracting and relaxing alternately (inhibits relaxation)
How can snake venom cause suffocation?
If inhibits break down of nuerotransmitters in synapses of muscles involved in paralysis, stops breathing
Why should children under 12 not take asprin?
Damages lining of stomach
What does asprin do?
Reduces chance of blood clots forming in vessels
Inhibits formation of prostaglandins (cell-signalling molecules which make nerve cells more sensitive to pain)
What are protease inhibitors used for and why?
Treating some viral infections
Prevent replication of virus particles within host cells by inhibiting protease enzymes so copies can’t be made - often inhibit by competitive inhibition
What are enzymes?
Biological catalysts that speed up rate of reaction by lowering activation energy
What’s the turnover number?
Number of reactions an enzyme can catalyse per second
Enzymes are
What conditions are best for enzymes to work?
Low temp
Neutral pH
Normal pressure
Why are enzymes more specific than chemical catalysts?
Don’t produce unwanted by-products and barely make mistakes
Where are the instructions for making enzymes encoded?
In genes
What happens if a gene that contains the instructions for an enzyme has a mutation?
Alters sequence of AA’s, alters secondary, tertiary structure and therefore prevents structure
Why is the tertiary sturcture of an enzyme so important?
Determines the active site which is complementary to substrate molecule
What are catabolic pathways?
Metabolites broken down to smaller molecules and releasing energy
What are anabolic pathways?
Using energy to synthesise larger molecules from smaller ones
Where is catalase found?
In almost all living organisms exposed to O2
What’s the importance of catalse?
Protects cells from damage by reactive O2 by quickly breaking down hyd peroxide to water and O2
Describe the structure of catalase
4 polypeptide chains
Iron haem group
What enzyme has the highest turnover number?
Catalase (6mil/s)
Where is catalase found in eukaryotic cells?
Peroxisomes
What’s the optimum pH for catalase in humans?
What may cause grey hairs earlier in life?
Lowered levels of catalase so more hyd peroxide bleaches hair shafts from inside
Describe the lock and key theory
Substrate and enzymes both have KE and constantly moving around
If successfully collides, fits into AS complementary shapes. Temp hyd bonds hold together forming ESC
Substrate broken into products, forming EPS
Product molecules leave active site, leaving AS unchanged
Why was the induced fit hypothesis created?
The lock and key theory doesn’t explain how ESC is stabilised
Describe the induced fit theory
AS complementary to substrate - when binding, R groups of AA change shape of AS slightly to give better fit
Esc formed and non-covalent forces e.g hyd bonds, ionic attractions etc bind substrate to AS
Substrate into products, forming EPC
Products detach AS
Enzyme free to catalyse further reations
Why are enzymes used to speed up reactions in the body rather than changing other factors?
Temp/pH can’t be raised in body to increase KE as proteins would denature and lipids would melt
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